---
title: Server Composition
sidebarTitle: Composition
description: Combine multiple FastMCP servers into a single, larger application using mounting and importing.
icon: puzzle-piece
---
import { VersionBadge } from '/snippets/version-badge.mdx'

<VersionBadge version="2.2.0" />

As your MCP applications grow, you might want to organize your tools, resources, and prompts into logical modules or reuse existing server components. FastMCP supports composition through two methods:

- **`import_server`**: For a one-time copy of components with prefixing (static composition).
- **`mount`**: For creating a live link where the main server delegates requests to the subserver (dynamic composition).

## Why Compose Servers?

-   **Modularity**: Break down large applications into smaller, focused servers (e.g., a `WeatherServer`, a `DatabaseServer`, a `CalendarServer`).
-   **Reusability**: Create common utility servers (e.g., a `TextProcessingServer`) and mount them wherever needed.
-   **Teamwork**: Different teams can work on separate FastMCP servers that are later combined.
-   **Organization**: Keep related functionality grouped together logically.

### Importing vs Mounting

The choice of importing or mounting depends on your use case and requirements. In general, importing is best for simpler cases because it copies the imported server's components into the main server, treating them as native integrations. Mounting is best for more complex cases where you need to delegate requests to the subserver at runtime.


| Feature | Importing | Mounting |
|---------|----------------|---------|
| **Method** | `FastMCP.import_server()` | `FastMCP.mount()` |
| **Composition Type** | One-time copy (static) | Live link (dynamic) |
| **Updates** | Changes to subserver NOT reflected | Changes to subserver immediately reflected |
| **Lifespan** | Not managed | Automatically managed |
| **Synchronicity** | Async (must be awaited) | Sync |
| **Best For** | Bundling finalized components | Modular runtime composition |

### Proxy Servers

FastMCP supports [MCP proxying](/patterns/proxy), which allows you to mirror a local or remote server in a local FastMCP instance. Proxies are fully compatible with both importing and mounting.


## Importing (Static Composition)

The `import_server()` method copies all components (tools, resources, templates, prompts) from one `FastMCP` instance (the *subserver*) into another (the *main server*). A `prefix` is added to avoid naming conflicts.

```python
from fastmcp import FastMCP
import asyncio

# --- Define Subservers ---

# Weather Service
weather_mcp = FastMCP(name="WeatherService")

@weather_mcp.tool()
def get_forecast(city: str) -> dict:
    """Get weather forecast."""
    return {"city": city, "forecast": "Sunny"}

@weather_mcp.resource("data://cities/supported")
def list_supported_cities() -> list[str]:
    """List cities with weather support."""
    return ["London", "Paris", "Tokyo"]

# Calculator Service
calc_mcp = FastMCP(name="CalculatorService")

@calc_mcp.tool()
def add(a: int, b: int) -> int:
    """Add two numbers."""
    return a + b

@calc_mcp.prompt()
def explain_addition() -> str:
    """Explain the concept of addition."""
    return "Addition is the process of combining two or more numbers."

# --- Define Main Server ---
main_mcp = FastMCP(name="MainApp")

# --- Import Subservers ---
async def setup():
    # Import weather service with prefix "weather"
    await main_mcp.import_server("weather", weather_mcp)

    # Import calculator service with prefix "calc"
    await main_mcp.import_server("calc", calc_mcp)

# --- Now, main_mcp contains *copied* components ---
# Tools:
# - "weather_get_forecast"
# - "calc_add"
# Resources:
# - "weather+data://cities/supported" (prefixed URI)
# Prompts:
# - "calc_explain_addition"

if __name__ == "__main__":
    # In a real app, you might run this async or setup imports differently
    asyncio.run(setup())
    # Run the main server, which now includes components from both subservers
    main_mcp.run()
```

### How Importing Works

When you call `await main_mcp.import_server(prefix, subserver)`:

1.  **Tools**: All tools from `subserver` are added to `main_mcp`. Their names are automatically prefixed using the `prefix` and a default separator (`_`).
    -   `subserver.tool(name="my_tool")` becomes `main_mcp.tool(name="{prefix}_my_tool")`.
2.  **Resources**: All resources from `subserver` are added. Their URIs are prefixed using the `prefix` and a default separator (`+`).
    -   `subserver.resource(uri="data://info")` becomes `main_mcp.resource(uri="{prefix}+data://info")`.
3.  **Resource Templates**: All templates from `subserver` are added. Their URI *templates* are prefixed similarly to resources.
    -   `subserver.resource(uri="data://{id}")` becomes `main_mcp.resource(uri="{prefix}+data://{id}")`.
4.  **Prompts**: All prompts from `subserver` are added, with names prefixed like tools.
    -   `subserver.prompt(name="my_prompt")` becomes `main_mcp.prompt(name="{prefix}_my_prompt")`.

Note that `import_server` performs a **one-time copy** of components from the `subserver` into the `main_mcp` instance at the time the method is called. Changes made to the `subserver` *after* `import_server` is called **will not** be reflected in `main_mcp`. Also, the `subserver`'s `lifespan` context is **not** executed by the main server when using `import_server`.

### Customizing Separators

You might prefer different separators for the prefixed names and URIs. You can customize these when calling `import_server()`:

```python
await main_mcp.import_server(
    prefix="api",
    app=some_subserver,
    tool_separator="/",       # Tool name becomes: "api/sub_tool_name"
    resource_separator=":",   # Resource URI becomes: "api:data://sub_resource"
    prompt_separator="."      # Prompt name becomes: "api.sub_prompt_name"
)
```

<Warning>
Be cautious when choosing separators. Some MCP clients (like Claude Desktop) might have restrictions on characters allowed in tool names (e.g., `/` might not be supported). The defaults (`_` for names, `+` for URIs) are generally safe.
</Warning>

## Mounting (Live Linking)

The `mount()` method creates a **live link** between the `main_mcp` server and the `subserver`. Instead of copying components, requests for components matching the `prefix` are **delegated** to the `subserver` at runtime.

```python
import asyncio
from fastmcp import FastMCP, Client

# --- Define Subserver ---
dynamic_mcp = FastMCP(name="DynamicService")
@dynamic_mcp.tool()
def initial_tool(): return "Initial Tool Exists"

# --- Define Main Server ---
main_mcp = FastMCP(name="MainAppLive")

# --- Mount Subserver (Sync operation) ---
main_mcp.mount("dynamic", dynamic_mcp)

print("Mounted dynamic_mcp.")

# --- Add a tool AFTER mounting ---
@dynamic_mcp.tool()
def added_later(): return "Tool Added Dynamically!"

print("Added 'added_later' tool to dynamic_mcp.")

# --- Test Access ---
async def test_dynamic_mount():
    # Need to use await for get_tools now
    tools_before = await main_mcp.get_tools()
    print("Tools available via main_mcp:", list(tools_before.keys()))
    # Expected: ['dynamic_initial_tool', 'dynamic_added_later']

    async with Client(main_mcp) as client:
        # Call the dynamically added tool via the main server
        result = await client.call_tool("dynamic_added_later")
        print("Result of calling dynamic_added_later:", result[0].text)
        # Expected: Tool Added Dynamically!

if __name__ == "__main__":
     # Need async context to test
     asyncio.run(test_dynamic_mount())
     # To run the server itself:
     # main_mcp.run()
```

### How Mounting Works

When you call `main_mcp.mount(prefix, server)`:

1. **Live Link**: A live connection is established between `main_mcp` and the `subserver`.
2. **Dynamic Updates**: Changes made to the `subserver` (e.g., adding new tools) **will be reflected** immediately when accessing components through `main_mcp`.
3. **Lifespan Management**: The `subserver`'s `lifespan` context **is automatically managed** and executed within the `main_mcp`'s lifespan.
4. **Delegation**: Requests for components matching the prefix are delegated to the subserver at runtime.

The same prefixing rules apply as with `import_server` for naming tools, resources, templates, and prompts.

### Customizing Separators

Similar to `import_server`, you can customize the separators for the prefixed names and URIs:

```python
main_mcp.mount(
    prefix="api",
    app=some_subserver,
    tool_separator="/",       # Tool name becomes: "api/sub_tool_name"
    resource_separator=":",   # Resource URI becomes: "api:data://sub_resource"
    prompt_separator="."      # Prompt name becomes: "api.sub_prompt_name"
)
```


## Example: Modular Application

Here's how a modular application might use `import_server`:

<CodeGroup>
```python main.py
from fastmcp import FastMCP
import asyncio

# Import the servers (see other files)
from modules.text_server import text_mcp
from modules.data_server import data_mcp

app = FastMCP(name="MainApplication")

# Setup function for async imports
async def setup():
    # Import the utility servers
    await app.import_server("text", text_mcp)
    await app.import_server("data", data_mcp)

@app.tool()
def process_and_analyze(record_id: int) -> str:
    """Fetches a record and analyzes its string representation."""
    # In a real application, you'd use proper methods to interact between
    # imported tools rather than accessing internal managers
    
    # Get record data
    record = {"id": record_id, "value": random.random()}
    
    # Count words in the record string representation
    word_count = len(str(record).split())
    
    return (
        f"Record {record_id} has {word_count} words in its string "
        f"representation."
    )

if __name__ == "__main__":
    # Run async setup before starting the server
    asyncio.run(setup())
    # Run the server
    app.run()
```
```python modules/text_server.py
from fastmcp import FastMCP

text_mcp = FastMCP(name="TextUtilities")

@text_mcp.tool()
def count_words(text: str) -> int:
    """Counts words in a text."""
    return len(text.split())

@text_mcp.resource("resource://stopwords")
def get_stopwords() -> list[str]:
    """Return a list of common stopwords."""
    return ["the", "a", "is", "in"]
```

```python modules/data_server.py
from fastmcp import FastMCP
import random
from typing import dict

data_mcp = FastMCP(name="DataAPI")

@data_mcp.tool()
def fetch_record(record_id: int) -> dict:
    """Fetches a dummy data record."""
    return {"id": record_id, "value": random.random()}

@data_mcp.resource("data://schema/{table}")
def get_table_schema(table: str) -> dict:
    """Provides a dummy schema for a table."""
    return {"table": table, "columns": ["id", "value"]}
```

</CodeGroup>
Now, running `main.py` starts a server that exposes:
- `text_count_words`
- `data_fetch_record`
- `process_and_analyze`
- `text+resource://stopwords`
- `data+data://schema/{table}` (template)

This pattern promotes code organization and reuse within your FastMCP projects. 